Modern high-frequency generator on the YIG-resonator works in a wide range up
to tens of GHz. It controls by computer: the mode of operation (rotation, fixed
frequency), the law of frequency change (linear or other), the rotational band, the initial
and final frequencies of this band, the period of frequency fluctuations etc.
The test signal from the high-frequency generator affects the object of research
(electronic device or transmission line), the response from which processes by the input
converter. The resulting measurement information is displays on the monitor. As
follows, the basic parameters and characteristics of the research object, namely:
amplitude-frequency characteristic, phase-frequency characteristic, group delay time,
running wave coefficient, standing wave coefficient, impedance, etc., begin known.
It is impossible to obtain reliable parameters and characteristics without accurate
determination of the generator`s frequency. For this purpose, characterograpf include
a block of frequency transformations and a measuring block.
The structure of the frequency conversion unit includes a stroboscopic mixer,
node of frequency synthesis and adder. They all are controled by computer. By
frequency properties, the stroboscopic mixer is consistent with the operating range of
the high-frequency generator. This is not a problem because modern stroboscopic
mixers can operate at frequencies up to 100 GHz and above. In the frequency hopping
mode of the high frequency generator, the node of frequency synthesis forms two
highly stable oscillations with close frequencies. In the fixed frequency mode of the
high frequency generator, the frequency synthesis node works as a range.
The measuring unit includes a controlled filter, a marker and a quadrator with a
low pass filter. The block can be supplemented by an additional frequency converter
in order to reduce the step of the frequency tags that form in frequency hopping mode.
CONCLUSION
After analysis of exist measuring devices that are used in radio engineering and
telecommunications we can propose a new method for measuring a frequency that
based on the use of YIG-resonator.
The difference of this meter from analogues is that the reference wave of the
device is the sum of the two high-stable harmonic voltages with close frequencies. The
product is filtered and processed by quadrator with the frequency range that is divides
to the difference of two frequencies. That frequency (measured by meter) show real
frequency of HF-generator in modes of hopping and stable generation. There are no
any effects on result of measurements caused by nonlinearity of hopping.
The relative frequency instability of the reference generators provides a high
accuracy of measurements and temperature instability effects only on time position of
marks on the screen of meter.
HF-generator on YIG-resonator doesn’t use reverse connections of additional
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